Recent developments in the use of structural actuators for decentralised active control
Recent developments in the use of structural actuators for decentralised active control
With an array of ideal, dual, collocated actuators and sensors, decentralized feedback controllers can not only be unconditionally stable, but their performance in reducing vibration and, hence, radiated sound, can approach that of a centralized LQG controller [W. P. Engles et al., JASA 119, 1487–1495 (2005)]. They also have a modular architecture that scales well, even for very large structures. This paper discusses some of the problems that arise in practice when proof-mass or piezoelectric transducers are used instead of ideal force or moment-pair actuators in such decentralized controllers. Proof-mass actuators are attractive when generating significant forces, but their natural frequency must be well below the first structural resonance frequency for stable operation. Even when this is achieved, impulsive forces due to the actuators hitting their end-stops have recently been shown to potentially be an additional source of instability. Piezoceramic actuators can give significant control in thinner structures, but as well as controlling out-of-plane vibration, they also create in-plane motion in the structure that can couple into closely located strain sensors causing instability in feedback controllers. Novel arrangements of such transducers will be described in which the effect of in-plane coupling is minimized, thus significantly improving their performance.
p.3161
Elliott, Stephen
721dc55c-8c3e-4895-b9c4-82f62abd3567
Gardonio, Paolo
bae5bf72-ea81-43a6-a756-d7153d2de77a
Baumann, Oliver
73c9c566-36ae-4856-a321-5bfd4bcadef8
Aoki, Yoko
b54ee18b-a4f1-4209-9592-a4b94759bd88
May 2007
Elliott, Stephen
721dc55c-8c3e-4895-b9c4-82f62abd3567
Gardonio, Paolo
bae5bf72-ea81-43a6-a756-d7153d2de77a
Baumann, Oliver
73c9c566-36ae-4856-a321-5bfd4bcadef8
Aoki, Yoko
b54ee18b-a4f1-4209-9592-a4b94759bd88
Elliott, Stephen, Gardonio, Paolo, Baumann, Oliver and Aoki, Yoko
(2007)
Recent developments in the use of structural actuators for decentralised active control.
Journal of the Acoustical Society of America, 121 (5), .
Abstract
With an array of ideal, dual, collocated actuators and sensors, decentralized feedback controllers can not only be unconditionally stable, but their performance in reducing vibration and, hence, radiated sound, can approach that of a centralized LQG controller [W. P. Engles et al., JASA 119, 1487–1495 (2005)]. They also have a modular architecture that scales well, even for very large structures. This paper discusses some of the problems that arise in practice when proof-mass or piezoelectric transducers are used instead of ideal force or moment-pair actuators in such decentralized controllers. Proof-mass actuators are attractive when generating significant forces, but their natural frequency must be well below the first structural resonance frequency for stable operation. Even when this is achieved, impulsive forces due to the actuators hitting their end-stops have recently been shown to potentially be an additional source of instability. Piezoceramic actuators can give significant control in thinner structures, but as well as controlling out-of-plane vibration, they also create in-plane motion in the structure that can couple into closely located strain sensors causing instability in feedback controllers. Novel arrangements of such transducers will be described in which the effect of in-plane coupling is minimized, thus significantly improving their performance.
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Published date: May 2007
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Local EPrints ID: 50492
URI: http://eprints.soton.ac.uk/id/eprint/50492
ISSN: 0001-4966
PURE UUID: 2575a194-2e6f-4143-bb10-adcdc0fe9753
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Date deposited: 26 Feb 2008
Last modified: 11 Dec 2021 17:01
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Author:
Paolo Gardonio
Author:
Oliver Baumann
Author:
Yoko Aoki
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